J. L. Provencal scite author profile

We are trying to reduce the largest uncertainties in using white dwarf stars as Galactic chronometers by understanding the details of carbon crystalliazation that currently result in a 1–2 Gyr uncertainty in the ages of the oldest white dwarf stars. We expect the coolest white dwarf stars to have crystallized interiors, but theory also predicts hotter white dwarf stars, if they are massive enough, will also have some core crystallization. BPM 37093 is the first discovered of only a handful of known massive white dwarf stars that are also pulsating DAV, or ZZ Ceti, variables. Our approach is to use the pulsations to constrain the core composition and amount of crystallization. Here we report our analysis of 4 hours of continuous time series spectroscopy of BPM 37093 with Gemini South combined with simultaneous time-series photometry from Mt. John (New Zealand), SAAO, PROMPT, and Complejo Astronomico El Leoncito (CASLEO, Argentina).

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J. L. Provencal

Testing the White Dwarf Mass‐Radius Relation withHipparcos

Metals in the Variable DA G29-38

Observational limits on companions to G29-38

The Mass and Radius of 40 Eridani B from [ITAL]HIPPARCOS[/ITAL]: An Accurate Test of Stellar Interior Theory

Constraining the physics of carbon crystallization through pulsations of a massive DAV BPM37093

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